JP4877086B2 - Wireless access point and wireless relay method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a technique of a wireless access point reducing exhaustion of a battery of a wireless telephone terminal. <P>SOLUTION: A wireless LAN access point 3 transmits, if the operation mode of the wireless telephone terminal 2 is power saving mode, a terminal control packet which is periodically sent to a wireless telephone terminal 2 by a main apparatus 1 only when the first predetermined time passes after previous transmission. In contrast, when the first predetermined time does not pass, the terminal control packet is discarded. <P>COPYRIGHT: (C)2009,JPO&amp;INPIT

Description

  The present invention relates to a relay technology between a main apparatus and a wireless terminal.

  In a wireless telephone system using the IEEE802.11 wireless LAN technology, when a wireless access point that relays between a main apparatus and a wireless telephone terminal receives a unicast packet addressed to the wireless telephone terminal from the main apparatus, a TIM (Traffic Indication) A beacon including Map) is transmitted. Thereafter, when a PS-POLL signal for requesting packet transmission addressed to the wireless telephone terminal is received from the wireless telephone terminal, the wireless access point wirelessly transmits the unicast packet to the wireless telephone terminal. When the wireless access point receives a multicast packet from the main device, the wireless access point transmits a beacon including DTIM (Delivery Traffic Indication Message), and then wirelessly transmits the received multicast packet. Note that the DTIM is periodically included in a beacon and transmitted wirelessly.

  On the other hand, in a wireless telephone system, a wireless telephone terminal normally uses a power saving mode during standby. In the power saving mode, the wireless telephone terminal periodically shifts from the sleep state to the awake state, and receives the beacon of the wireless access point. Then, by analyzing the TIM included in the received beacon, it is determined whether or not packets addressed to the own wireless telephone terminal are stored in the wireless access point. When packets addressed to the own wireless telephone terminal are stored in the wireless access point, the awake state is maintained, a PS-POLL signal is transmitted to the wireless access point, and the unicast addressed to the own wireless telephone terminal is transmitted from the wireless access point. Receive the packet. When packets addressed to the own wireless telephone terminal are not stored in the wireless access point, the state is quickly shifted from the awake state to the sleep state. When the received beacon includes DTIM, the awake state is maintained and a multicast packet is received from the wireless access point.

  Patent Document 1 discloses a wireless LAN system that can reduce useless wireless transmission. In this wireless LAN system, a wireless access point (master station device) manages subordinate wireless telephone terminals (slave station devices). When the multicast packet received from the main apparatus (host) is a packet addressed to a group other than the group to which the subordinate radio telephone terminal belongs, the wireless access point discards the packet without wireless transmission. By doing so, useless wireless transmission is reduced.

JP 2000-324120 A

  However, in the technique described in Patent Document 1, the wireless access point is used when the subordinate wireless telephone terminal belongs to the destination group of the multicast packet received from the main device, or the destination of the unicast packet received from the main device. If is a subordinate radio telephone terminal, the received packet is transmitted by radio. Then, the subordinate radio telephone terminal in the power saving mode transmits the clock information transmitted from the radio access point to the group to which the own radio telephone terminal belongs or the unicast packet addressed to the own radio telephone terminal. For a wireless telephone terminal in the sleep state, even if the packet does not need to be received immediately, the awake state is maintained in order to receive this packet. For this reason, the battery is wasted.

  The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a technology of a wireless access point that can reduce battery consumption of a wireless telephone terminal.

  In order to solve the above problems, in the present invention, the operation mode of the wireless terminal saves the terminal control packet periodically transmitted from the main apparatus to the wireless terminal, such as presence confirmation notification (Keep Alive) and clock information. If in the power mode, the wireless access point wirelessly transmits only when the first predetermined time has elapsed since the previous transmission.

For example, the present invention is a wireless access point that relays packet data of a main device and a wireless terminal belonging to the main device,
Operation mode monitoring means for monitoring whether the operation mode of the wireless terminal is an active mode capable of receiving a packet or a power saving mode;
Terminal control packet receiving means for receiving a terminal control packet transmitted from the main apparatus to the wireless terminal;
Terminal control packet holding means for holding the latest terminal control packet information and the transmission date and time transmitted to the wireless terminal ;
When the result of monitoring the operation mode of the wireless terminal by the operation mode monitoring unit is a power saving mode, the type of information of the terminal control packet newly received by the terminal control packet receiving unit is stored in the terminal control packet holding unit. a type of the same type as the information of the terminal control packets held, and in the case where the transmission date and time of the terminal control packets being the holding not elapsed a first predetermined time, the newly received terminal control packet The information type of the newly received terminal control packet is not the same type as the information type of the held terminal control packet, or the first date from the transmission date and time of the held terminal control packet. when the have passed the predetermined time, the terminal control packetized for transmitting terminal control packets the received to the radio terminal Has a door transmission means, the.

  ADVANTAGE OF THE INVENTION According to this invention, the radio | wireless transmission interval of the terminal control packet which a main apparatus transmits regularly with respect to the radio | wireless terminal in power saving mode can be controlled. Thereby, the duration of the awake state in the wireless terminal in the power saving mode can be shortened, and the battery consumption of the wireless terminal can be reduced.

  Embodiments of the present invention will be described below. Here, an application example to a wireless telephone system including a wireless telephone terminal as a wireless terminal will be described.

  FIG. 1 is a schematic configuration diagram of a radiotelephone system to which an embodiment of the present invention is applied.

  As shown in the figure, the wireless telephone system of the present embodiment includes a main apparatus (or server) 1 and a plurality of wireless telephone terminals 2 accommodated in the main apparatus 1 via a wired LAN (Local Area Network) 4. It has a wireless LAN access point 3 that relays between the main apparatus 1 and the wireless telephone terminal 2 belonging to its own jurisdiction area (wireless LAN 5), and a wired LAN 4 that interconnects the main apparatus 1 and the wireless LAN access point 3.

  The main device 1 is a wireless telephone terminal 2 for receiving incoming information such as representative incoming calls, group incoming calls, individual incoming calls, display information such as LCD display and LED display, sound information such as dial tone and hold tone, clock information, and presence confirmation notification. A packet (referred to as a terminal control packet) storing control information used in is transmitted to the wired LAN 4 by unicast or multicast.

  The wireless telephone terminal 2 receives and processes the unicast packet addressed to itself and transmitted from the wireless LAN access point 3 and the multicast packet addressed to the group to which the terminal belongs. Here, the radio telephone terminal 2 operates in either the active mode or the power saving mode. In the active mode, the wireless telephone terminal 2 is always in an awake state, and receives a unicast packet addressed to the own telephone and transmitted from the wireless LAN access point 3 and a multicast packet addressed to the group to which the own terminal belongs. In the power saving mode, the wireless telephone terminal 2 periodically shifts from the sleep state to the awake state and receives the beacon of the wireless LAN access point 3. Then, by analyzing the TIM included in the received beacon, it is determined whether or not the packet addressed to the own terminal is accumulated in the wireless LAN access point 3. When packets addressed to the own terminal are stored in the wireless LAN access point 3, the awake state is maintained, a PS-POLL signal is transmitted to the wireless LAN access point 3, and the unicast addressed to the own terminal is transmitted from the wireless access point. Receive the packet. When the packet addressed to the terminal itself is not stored in the wireless LAN access point 3, the wireless LAN access point 3 quickly shifts from the awake state to the sleep state. If the received beacon includes DTIM including the multicast address of the group to which the terminal belongs, the awake state is maintained and the wireless LAN access point 3 waits for this multicast packet to be sent. .

  When the wireless LAN access point 3 receives a unicast packet addressed to the wireless telephone terminal 2 from the main device 1, the wireless LAN access point 3 transmits a beacon including a TIM. Thereafter, when a PS-POLL signal is received from the wireless telephone terminal 2, the wireless LAN access point 3 wirelessly transmits the unicast packet to the wireless telephone terminal 2. In addition, when the wireless LAN access point 3 receives a multicast packet from the main device 1, the wireless LAN access point 3 transmits a beacon including DTIM, and then wirelessly transmits the received multicast packet. Note that the DTIM is periodically included in a beacon and transmitted wirelessly.

  Here, when the unicast packet received from the main apparatus 1 is a terminal control packet that the main apparatus 1 periodically transmits, the wireless LAN access point 3 is a wireless telephone specified by the destination address of this terminal control packet. Based on the operation mode of the terminal 2, radio transmission of this terminal control packet is controlled.

  That is, when the operation mode of the wireless telephone terminal 2 specified by the destination address of this terminal control packet is the active mode, the wireless telephone terminal 2 does not hold the terminal control packet in the wireless LAN access point 3 and Wireless transmission of control packets.

  On the other hand, when the operation mode of the radio telephone terminal 2 specified by the destination address of the terminal control packet is the power saving mode, a first predetermined time (for example, 60 from the transmission of the same type of terminal control packet to the radio telephone terminal 2). Seconds), the wireless LAN access point 3 transmits a beacon including TIM. Thereafter, when a PS-POLL signal is received from the wireless telephone terminal 2, the wireless LAN access point 3 wirelessly transmits the unicast packet to the wireless telephone terminal 2. If the first predetermined time has not elapsed since the transmission of the same type of terminal control packet to the wireless telephone terminal 2, the terminal control packet is discarded. At this time, if the discarded terminal control packet is a request for a response such as a presence confirmation notification, the wireless LAN access point 3 uses the response packet instead of the wireless telephone terminal 2 that was the destination of the discarded terminal control packet. Reply.

  In addition, when the multicast packet received from the main device 1 is a terminal control packet that the main device 1 periodically transmits, the wireless LAN access point 3 is a wireless telephone terminal that belongs to the group that is the destination of this terminal control packet. Based on the two operation modes, radio transmission of this terminal control packet is controlled. That is, when at least one of the operation modes of the wireless telephone terminals 2 belonging to the group that is the destination of the terminal control packet is the active mode, the terminal control packet is wirelessly transmitted without being held.

  On the other hand, when the operation mode of all the radiotelephone terminals 2 belonging to the group specified by the destination address of this terminal control packet is the power saving mode, the first predetermined time from the transmission of the same type of terminal control packet to this group Has passed, the wireless LAN access point 3 transmits a beacon including DTIM, and wirelessly transmits this terminal control packet after transmission of this DTIM. If the first predetermined time has not elapsed since the transmission of the same type of terminal control packet to this group, the terminal control packet is discarded. At this time, if the discarded terminal control packet is a request for a response such as a presence confirmation notification, the wireless LAN access point 3 transmits the wireless telephone terminal 2 belonging to the group that was the destination of the discarded terminal control packet. Instead, a response packet is returned.

  The wireless LAN access point 3 manages the unicast address of each wireless telephone terminal 2 in the own jurisdiction area 5 and the multicast address of the group to which the wireless LAN access point 3 belongs by using station data held by the own wireless LAN access point 3. Yes.

  Next, the wireless LAN access point 3 will be described in more detail. Since the main apparatus 1 and the radio telephone terminal 2 can use the existing main apparatus and radio telephone terminal, detailed description thereof will be omitted.

  FIG. 2 is a schematic diagram of the wireless LAN access point 3.

  As shown in the figure, the wireless LAN access point 3 includes a wired LAN packet transmission / reception unit 301, a wireless LAN packet transmission / reception unit 302, a beacon transmission unit 303, an upstream relay unit 304, a downstream relay unit 305, and a station data storage unit. 306, an operation mode monitoring unit 307, a terminal control packet holding unit 308, and a proxy response unit 309.

  The wired LAN packet transmission / reception unit 301 has a wired LAN 4 interface control function, and transmits and receives packets to and from the main apparatus 1 via the wired LAN 4.

  The wireless LAN packet transmitting / receiving unit 302 has an interface control function for the wireless LAN 5 and transmits / receives packets to / from the subordinate wireless telephone terminal 2 via the wireless LAN 5.

  The beacon transmitting unit 303 periodically transmits a beacon for notifying the subordinate wireless telephone terminal 2 of the jurisdiction area (wireless LAN 5) of the wireless LAN access point 3.

  The upstream relay unit 304 relays (bridges) the packet received from the wireless telephone terminal 2 under the control of the wireless LAN packet transmission / reception unit 302 to the wired LAN packet transmission / reception unit 301.

  The downlink relay unit 305 relays (bridges) the packet received by the wired LAN packet transmission / reception unit 301 from the main apparatus 1 to the wireless LAN packet transmission / reception unit 302.

  The station data storage unit 306 stores station data. The station data stores the unicast address of each wireless telephone terminal 2 under the wireless LAN access point 3 and the multicast address of the group to which the wireless telephone terminal 2 belongs.

  The operation mode monitoring unit 307 monitors the operation mode of each wireless telephone terminal 2 subordinate to the wireless LAN access point 3. Specifically, for each of the wireless telephone terminals 2 under the wireless LAN access point 3 specified by the station data stored in the station data storage unit 306, the wireless telephone terminal 2 communicates with the wireless telephone terminal 2 via the uplink relay unit 304. A packet (referred to as upstream packet) transmitted to the wired LAN 4 is monitored. When an uplink packet is detected within the second predetermined time (for example, 10 μs), the operation mode of the radio telephone terminal 2 is determined as the active mode. On the other hand, when no uplink packet is detected within the second predetermined time, the operation mode of the radio telephone terminal 2 is determined as the power saving mode.

  The terminal control packet holding unit 308 holds the latest terminal control packet information transmitted to this address for each address. FIG. 3 is a diagram schematically showing the registration contents of the terminal control packet holding unit 308. As illustrated, a record 3080 is registered for each address in the terminal control packet holding unit 308. The record 3080 includes a field 3081 for registering an address (unicast address, multicast address), a field 3082 for registering information of the latest terminal control packet destined for this address, and the transmission date and time of the latest terminal control packet. And a field 3083 to be registered.

  Returning to FIG. 2, the description will be continued. The proxy response unit 309 transmits a response packet to the terminal control packet to the wired LAN 4 via the wired LAN packet transmission / reception unit 301 in accordance with the instruction from the downlink relay unit 305.

  Next, for the wireless LAN access point 3 configured as described above, an operation when a packet received from the wired LAN 4 is relayed to the wireless LAN 5 (referred to as a downlink relay operation) will be described. Note that an operation when a packet received from the wireless LAN 5 is relayed to the wired LAN 4 (referred to as an uplink relay operation) is the same as the uplink relay operation of an existing wireless LAN access point, and a description thereof will be omitted.

  FIG. 4 is a flowchart for explaining the downlink relay operation of the wireless LAN access point 3. This flow is started when the wired LAN packet transmitting / receiving unit 301 receives a packet from the wired LAN 4.

  First, the wired LAN packet transmission / reception unit 301 passes the packet received from the wired LAN 4 to the downlink relay unit 305. In response to this, the downlink relay unit 305 refers to the type information stored in the header of the packet received from the wired LAN packet transmission / reception unit 301 and checks whether this packet is a terminal control packet (S10). ).

  When the packet received from the wired LAN packet transmitting / receiving unit 301 is not a terminal control packet (NO in S10), the relay process is performed and this packet is transmitted to the wireless LAN 5 (S11). That is, the downlink relay unit 305 passes this packet to the wireless LAN packet transmission / reception unit 302. In response to this, when this packet is a unicast packet, the wireless LAN packet transmitting / receiving unit 302 controls the beacon transmitting unit 303 to transmit a beacon including the TIM. Thereafter, when a PS-POLL signal is received from the wireless telephone terminal 2 that is the destination of this unicast packet, the unicast packet is wirelessly transmitted to the wireless telephone terminal 2. On the other hand, when this packet is a multicast packet, the wireless LAN packet transmission / reception unit 302 controls the beacon transmission unit 303 to transmit a beacon including DTIM, and then wirelessly transmits this multicast packet.

  On the other hand, when the packet received from the wired LAN packet transmitting / receiving unit 301 is a terminal control packet (YES in S10), the downlink relay unit 305 refers to the station data stored in the station data storage unit 306, and It is determined whether the destination address is a unicast address or a multicast address (S12). If it is a unicast address, the process proceeds to S13, and if it is a multicast address, the process proceeds to S21.

  In S13, the downlink relay unit 305 refers to the operation mode monitoring unit 307 and is identified by the destination address (unicast address) of the terminal control packet (unicast packet) received from the wired LAN packet transmission / reception unit 301. 2 operation mode is discriminated. When the operation mode of the radio telephone terminal 2 is the power saving mode, the process proceeds to S14, and when the operation mode is the active mode, the process proceeds to S17.

  In S <b> 14, the downlink relay unit 305 refers to the terminal control packet holding unit 308, and classifies the information of the terminal control packet received from the wired LAN packet transmission / reception unit 301 (incoming information, display information, sound information, clock information, existence confirmation). A packet that is registered in association with the destination address 3081 of this terminal control packet (terminal control packet previously transmitted to the wireless telephone terminal 2 having the destination address of this terminal control packet). It is determined whether or not the type of the information 3082 matches. If they match (YES in S14), the downlink relay unit 305 further refers to the terminal control packet holding unit 308, and transmits the transmission date / time registered in association with the destination address 3081 of this terminal control packet (this terminal control) It is checked whether or not a first predetermined time has elapsed since the previous terminal control packet transmission date / time 3083 for the wireless telephone terminal 2 having the packet destination address (S15).

  In S14, the type of information of the terminal control packet received from the wired LAN packet transmitting / receiving unit 301 is associated with the destination address of the terminal control packet and the type of information of the packet registered in the terminal control packet holding unit 308. If they do not match or the packet associated with the destination address of this terminal control packet is not registered in the terminal control packet holding unit 308 (NO in S14), or in S15, the wired LAN packet transmitting / receiving unit 301 When the first predetermined time has passed since the transmission date 3083 registered in the terminal control packet holding unit 308 in association with the destination address 3081 of the terminal control packet received from the terminal control packet (YES in S15), the downlink relay unit Reference numeral 305 denotes a destination address 308 of this terminal control packet. Associated with it information 3082 and transmission time 3083 of the packet is registered in the terminal control packet holding unit 308, updates the information and current time of the terminal control packet. When the packet associated with the destination address of this terminal control packet and the transmission date / time are not registered in the terminal control packet holding unit 308, the information of this terminal control packet and the current date / time are associated with the destination address of this terminal control packet. At the same time, it is registered in the terminal control packet holding unit 308 (S16). Then, the process proceeds to S17.

  In S <b> 17, relay processing is performed, and the terminal control packet received from the wired LAN packet transmitting / receiving unit 301 is transmitted to the wireless LAN 5. That is, the downlink relay unit 305 passes this terminal control packet to the wireless LAN packet transmission / reception unit 302. In response, the wireless LAN packet transmission / reception unit 302 controls the beacon transmission unit 303 to transmit a beacon including a TIM. Thereafter, when a PS-POLL signal is received from the wireless telephone terminal 2 that is the destination of this terminal control packet, this terminal control packet (unicast packet) is wirelessly transmitted to the wireless telephone terminal 2.

  On the other hand, in S15, the first predetermined time has elapsed from the transmission date 3083 registered in the terminal control packet holding unit 308 in association with the destination address 3081 of the terminal control packet received from the wired LAN packet transmitting / receiving unit 301. If not (NO in S15), the downlink relay unit 305 discards this terminal control packet (S18). Then, the downlink relay unit 305 checks whether or not the discarded terminal control packet requires a response (S19). Specifically, when the type of information of the discarded terminal control packet is a predetermined type including the presence confirmation notification, it is determined that a response is required. If a response is required (YES in S19), the downlink relay unit 305 notifies the proxy response unit 309 of the destination address and the source address of the discarded terminal control packet and requests a proxy response. . In response to this, the proxy response unit 309 generates a response packet with the destination address of the discarded terminal control packet as the transmission source and the transmission source address as the destination as a response packet to the terminal control packet, and the response packet is wired. The data is transmitted from the LAN packet transmitting / receiving unit 301 to the wired LAN 4 (S20).

  In S21, the downlink relay unit 305 refers to the station data storage unit 306 and belongs to the group specified by the destination address (multicast address) of the terminal control packet (multicast packet) received from the wired LAN packet transmission / reception unit 301. The wireless telephone terminal 2 to be identified is specified. Then, the operation mode monitoring unit 307 is referred to, and the operation mode of each wireless telephone terminal 2 belonging to this group is determined. If the operation mode of all the radio telephone terminals 2 belonging to this group is the power saving mode, the process proceeds to S22. If at least one of the radio telephone terminals 2 belonging to this group is in the active mode, the process proceeds to S25.

  In step S22, the downlink relay unit 305 refers to the terminal control packet holding unit 308, and determines the type of information of the terminal control packet received from the wired LAN packet transmission / reception unit 301 (incoming information, display information, sound information, clock information, existence confirmation). Notification) is registered in association with the destination address 3081 of this terminal control packet (information on the terminal control packet multicasted last time for the group having the destination address of this terminal control packet) 3082 It is determined whether or not it matches the type. If they match (YES in S22), the downlink relay unit 305 further refers to the terminal control packet holding unit 308, and transmits the transmission date and time registered in association with the destination address of this terminal control packet (this terminal control packet) It is checked whether or not a first predetermined time has elapsed since the previous terminal control packet transmission date / time 3083 for the group having the destination address (S23).

  In S 22, the type of information of the terminal control packet received from the wired LAN packet transmitting / receiving unit 301 is associated with the destination address 3081 of this terminal control packet and the packet information 3082 registered in the terminal control packet holding unit 308. If the packet does not match the type, or the packet associated with the destination address of this terminal control packet is not registered in terminal control packet holding section 308 (NO in S22), or in step S23, wired LAN packet transmission / reception When the first predetermined time has elapsed from the transmission date 3083 registered in the terminal control packet holding unit 308 in association with the destination address 3081 of the terminal control packet received from the unit 301 (YES in S23) The relay unit 305 addresses the terminal control packet. Associated with the address 3081 information 3082 and transmission time 3083 of the packet is registered in the terminal control packet holding unit 308, updates the information and current time of the terminal control packet. If the packet associated with the destination address of the terminal control packet and the transmission date / time are not registered in the terminal control packet holding unit 308, the terminal control packet information 3082 and the current date / time 3081 are used as the destination address of the terminal control packet. It is registered in the terminal control packet holding unit 308 in association with 3081 (S24). Then, the process proceeds to S25.

  In S25, relay processing is performed, and the terminal control packet received from the wired LAN packet transmitting / receiving unit 301 is transmitted to the wireless LAN 5. That is, the downlink relay unit 305 passes this terminal control packet to the wireless LAN packet transmission / reception unit 302. In response to this, the wireless LAN packet transmitting / receiving unit 302 controls the beacon transmitting unit 303 to transmit a beacon including DTIM, and then wirelessly transmits this terminal control packet (multicast packet).

  On the other hand, in S23, the first predetermined time has elapsed from the transmission date 3083 registered in the terminal control packet holding unit 308 in association with the destination address 3081 of the terminal control packet received from the wired LAN packet transmitting / receiving unit 301. If not (NO in S23), the downlink relay unit 305 discards this terminal control packet (S26). Then, the downlink relay unit 305 checks whether the discarded terminal control packet requires a response (S27). Specifically, when the type of information of the discarded terminal control packet is a predetermined type including the presence confirmation notification, it is determined that a response is required. If a response is required (YES in S27), the downlink relay unit 305 refers to the station data storage unit 306, and each radio belonging to the group specified by the destination address of the discarded terminal control packet The unicast address of the telephone terminal 2 is acquired. Then, the proxy response unit 309 is notified of the unicast address of each wireless telephone terminal 2 belonging to the group specified by the source address and the destination address of the discarded terminal control packet, and requests a proxy response. In response to this, the proxy response unit 309 sends, for each wireless telephone terminal 2 belonging to the group specified by the destination address of the discarded terminal control packet, the wireless telephone terminal 2 as a transmission source and the discarded terminal control packet. Response packets addressed to the transmission source address are generated as response packets for the terminal control packet, and these response packets are transmitted from the wired LAN packet transmitting / receiving unit 301 to the wired LAN 4 (S28).

  The embodiment of the present invention has been described above.

  In the present embodiment, the wireless LAN access point 3 transmits a terminal control packet that the main apparatus 1 periodically transmits to the wireless telephone terminal 2 in the operation mode of the destination wireless telephone terminal 2 or the wireless in the destination group. If the telephone terminal 2 is in the power saving mode, wireless transmission is performed only when the first predetermined time has elapsed since the previous transmission, and when the first predetermined time has not elapsed, the telephone terminal 2 is discarded. Therefore, according to the present embodiment, the wireless transmission interval at the wireless LAN access point 3 of the terminal control packet that the main apparatus 1 periodically transmits to the wireless telephone terminal 2 in the power saving mode is controlled. Can do. Thereby, the duration of the awake state in the radio telephone terminal 2 in the power saving mode can be shortened, and battery consumption of the radio telephone terminal 2 can be reduced. If the operation mode of the wireless telephone terminal 2 that is the destination of the terminal control packet or the wireless telephone terminal 2 in the destination group is the active mode, the wireless LAN access point 3 always transmits the terminal control packet as described above. It may be wirelessly transmitted to the destination, or the terminal control packet may be discarded and a proxy response may be made as necessary.

  Further, in this embodiment, when the main apparatus 1 discards a terminal control packet that the main apparatus 1 periodically transmits to the wireless telephone terminal 2, the terminal control packet is used for notification of existence confirmation, etc. If a response is required, a proxy response is made instead of the radio telephone terminal 2 that is the destination of the terminal control packet. Therefore, according to the present embodiment, it is possible to prevent an adverse effect caused by discarding the terminal control packet at the wireless access point.

  In the present embodiment, the wireless LAN access point 3 determines that the information type of the terminal control packet newly received from the main device 1 is the information type of the terminal control packet transmitted to the destination of the terminal control packet last time. If it matches, the terminal control packet is determined as a terminal control packet that the main apparatus 1 periodically transmits to this destination. Therefore, according to the present embodiment, it is possible to identify the terminal control packet periodically transmitted by the main apparatus 1 without registering the information type of the terminal control packet in the wireless LAN access point 3 in advance. it can.

  In this embodiment, the wireless LAN access point 3 sets the operation mode of the wireless telephone terminal 2 to the active mode when a packet transmitted from the wireless telephone terminal 2 to the wired LAN 4 is detected within the second predetermined time. If it is not detected, the operation mode of the wireless telephone terminal 2 is determined as the power saving mode. Therefore, according to the present embodiment, the wireless LAN access point 3 can determine the operation mode of the wireless telephone terminal 2 without performing special notification between the wireless telephone terminal 2 and the wireless LAN access point 3.

  In addition, this invention is not limited to said embodiment, Many deformation | transformation are possible within the range of the summary.

  For example, in the above-described embodiment, a case where a beacon including DTIM is periodically transmitted from the wireless LAN access point 3 has been described as an example. You may make it synchronize with the transmission period of the presence confirmation notification transmitted from.

  Specifically, when the same type of terminal control packet is received in S14 of FIG. 4, the number of receptions of the presence confirmation notification transmitted from the main apparatus 1 is counted, and the time until the number of receptions reaches a predetermined number is measured. . Then, the transmission period of DTIM is set using the measured time. Thereby, the transmission period of DTIM is automatically updated by the control of the main apparatus 1.

  Further, in the above embodiment, the configuration of the wireless LAN access point 3 may be implemented by hardware by an integrated logic IC such as ASIC (Application Specific Integrated Circuit) or FPGA (Field Programmable Gate Array), Alternatively, the program may be executed by a computer such as a DSP (Digital Signal Processor).

  Further, in the above embodiment, the wireless LAN access point 3 determines that the information type of the terminal control packet newly received from the main device 1 is the information of the information of the terminal control packet transmitted to the destination of the terminal control packet last time. If the type matches, the terminal control packet is determined to be a terminal control packet that the main apparatus 1 periodically transmits to this destination. However, the present invention is not limited to this. The wireless LAN access point 3 may make a determination by registering in advance the types of terminal control packets that the main apparatus 1 periodically transmits.

  In the above embodiment, the wireless LAN access point 3 activates the operation mode of the wireless telephone terminal 2 when a packet transmitted from the wireless telephone terminal 2 to the wired LAN 4 is detected within the second predetermined time. When the mode is not detected and the wireless telephone terminal 2 is not detected, the operation mode of the radio telephone terminal 2 is determined as the power saving mode. However, the present invention is not limited to this.

  For example, based on the type of the call control packet that passes through the wireless LAN access point 3, the operation mode of the wireless telephone terminal 2 that transmits and receives the call control packet may be determined. For example, when any call control packet of “INVITE”, “180 Ringing”, or “BYE” passes through the wireless LAN access point 3, it is determined that the operation mode of the wireless telephone terminal 2 is the active mode. If the “200 OK” call control packet passes through the wireless LAN access point 3, it is determined that the operation mode of the wireless telephone terminal 2 has shifted from the active mode to the power saving mode.

  Alternatively, when the operation mode of the wireless telephone terminal 2 changes, the wireless LAN access point 3 determines the operation mode of the wireless telephone terminal 2 by notifying the wireless LAN access point 3 of the operation mode. You may make it do.

  In the above embodiment, the multicast packet and the unicast packet are used as the terminal control packet transmitted from the wireless LAN access point 3 to the wireless telephone terminal 2. However, the present invention is not limited to this. For example, it may be broadcast.

  In the above embodiment, the case where the wireless telephone terminal 2 is used as a wireless terminal has been described as an example. However, the present invention is not limited to this. The present invention can also be applied to a wireless terminal such as a PDA.

FIG. 1 is a schematic configuration diagram of a radiotelephone system to which an embodiment of the present invention is applied. FIG. 2 is a schematic diagram of the wireless LAN access point 3. FIG. 3 is a diagram schematically showing the registration contents of the terminal control packet holding unit 308. FIG. 4 is a flowchart for explaining the downlink relay operation of the wireless LAN access point 3.

Explanation of symbols

  1: main device, 2: wireless telephone terminal, 3: wireless LAN access point, 4: wired LAN, 5: wireless LAN, 301: wired LAN packet transmitting / receiving unit, 302: wireless LAN packet transmitting / receiving unit, 303: beacon transmitting unit, 304: Uplink relay unit, 305: Downlink relay unit, 306: Station data storage unit, 307: Operation mode monitoring unit, 308: Terminal control packet holding unit, 309: Proxy response unit

Claims (5)

A wireless access point that relays packet data of a main device and a wireless terminal belonging to the main device,
Operation mode monitoring means for monitoring whether the operation mode of the wireless terminal is an active mode capable of receiving a packet or a power saving mode;
Terminal control packet receiving means for receiving a terminal control packet transmitted from the main apparatus to the wireless terminal;
Terminal control packet holding means for holding the latest terminal control packet information and the transmission date and time transmitted to the wireless terminal ;
When the result of monitoring the operation mode of the wireless terminal by the operation mode monitoring unit is a power saving mode, the type of information of the terminal control packet newly received by the terminal control packet receiving unit is stored in the terminal control packet holding unit. a type of the same type as the information of the terminal control packets held, and in the case where the transmission date and time of the terminal control packets being the holding not elapsed a first predetermined time, the newly received terminal control packet The information type of the newly received terminal control packet is not the same type as the information type of the held terminal control packet, or the first date from the transmission date and time of the held terminal control packet. when the have passed the predetermined time, the terminal control packetized for transmitting terminal control packets the received to the radio terminal Wireless access point and having a preparative transmitting means. The wireless access point according to claim 1,
The terminal control packet transmitting means includes
The wireless access point, wherein when the operation mode monitoring result of the wireless terminal by the operation mode monitoring means is an active mode, the terminal control packet received by the terminal control packet receiving means is transmitted to the wireless terminal. The wireless access point according to claim 1 or 2,
When the terminal control packet received by the terminal control packet receiving unit is discarded by the terminal control packet transmitting unit, a proxy response unit that transmits a response packet to the terminal control packet to the main device instead of the wireless terminal A wireless access point, further comprising: The wireless access point according to any one of claims 1 to 3,
The operation mode monitoring means includes
When a packet is received from the wireless terminal within a second predetermined time, the operation mode of the wireless terminal is determined as an active mode, and when the packet is not received, the operation mode of the wireless terminal is determined as a power saving mode. Wireless access point. A wireless relay method of a wireless access point that relays packet data of a wireless terminal belonging to a master device and the master device,
The wireless access point is
Receiving a terminal control packet transmitted from the main unit to the wireless terminal;
The received terminal control packet is transmitted to the wireless terminal if the operation mode of the wireless terminal is an active mode capable of receiving a packet, and the control is performed if the operation mode of the wireless terminal is a power saving mode. The wireless relay method, wherein the terminal transmits to the wireless terminal only when it is not the same type as the terminal control packet transmitted last time or when the first predetermined time has elapsed since the previous transmission.

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